CN115162683A

CN115162683A - Water absorption brick paving equipment for building

Info

Publication number: CN115162683A
Application number: CN202210708139.6A
Authority: CN
Inventors: 孙光阳
Original assignee: Individual
Current assignee: Hainan Dingsheng Decoration Design Engineering Group Co ltd
Priority date: 2022-06-22
Filing date: 2022-06-22
Publication date: 2022-10-11
Anticipated expiration: 2042-06-22
Also published as: CN115162683B

Abstract

The invention relates to water absorption brick paving equipment, in particular to water absorption brick paving equipment for buildings. The invention provides paving equipment for water-absorbing bricks for buildings, which enables the paved water-absorbing bricks to be relatively flat. The utility model provides a water absorption brick for building spreads equipment of pasting, is including rotating wheel, first mount, handle, first fixed block etc. and the lower part rotary type ground of first mount is connected with four and rotates the wheel, and the upper portion of first mount front side is equipped with two handles, and the first mount lower part is equipped with four first fixed blocks. The invention achieves the following effects: after the guide plate slides to a certain position, the first sliding block drives the water absorption brick on the guide plate to move, and the water absorption brick falls on the ground, so that the water absorption brick can be paved on the ground.

Description

Water absorption brick paving and pasting equipment for building

Technical Field

The invention relates to water absorption brick paving equipment, in particular to water absorption brick paving equipment for buildings.

Background

At present, water is generally sprayed on the ground in building construction, then the water absorption bricks are pasted on the ground manually, then wooden hammers are used for beating the surfaces of the water absorption bricks to avoid hollowing, a ruler is used for leveling at any time in the pasting process of the water absorption bricks, after a certain area is applied, caulking agents are needed to fill the seams of the water absorption bricks and remove dirt on the surfaces of the water absorption bricks, however, the working strength of pasting the water absorption bricks on the ground manually is relatively high, so that the wooden hammers are used for beating the surfaces of the water absorption bricks, the pasting efficiency of the water absorption bricks is relatively low, the water absorption bricks are easily smashed, and the pasting efficiency of the water absorption bricks is relatively low.

Patent No. CN204456799U discloses a novel ground water absorption brick paving device, which comprises a conveying mechanism and a paving mechanism arranged at the front end of the conveying mechanism, namely close to a paving area; the transportation mechanism comprises a carriage for accumulating the water absorption bricks, a supporting mechanism positioned below the carriage for supporting the carriage and a conveying mechanism arranged in a cavity of the supporting mechanism; conveying mechanism includes driving motor and the conveyer belt of being connected with driving motor, evenly is provided with a plurality of ground water absorption brick and peels off the post to paving on the conveyer belt that pastes mechanism direction slope decurrent. Although the device can be spread and paste the brick that absorbs water, the planarization that the brick that absorbs water was spread and is pasted is relatively poor, leads to easily spreading the brick that absorbs water that pastes and drops to the influence spreads the efficiency of the brick that absorbs water.

Therefore, in view of the above problems, an apparatus for paving water-absorbing bricks for construction is provided, which makes the paved water-absorbing bricks relatively flat.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that although water-absorbing bricks can be well paved, the paving smoothness of the water-absorbing bricks is relatively poor, and paved water-absorbing bricks are easy to fall off, so that the paving efficiency of the water-absorbing bricks is influenced.

(2) Technical scheme

In order to solve the technical problems, the invention provides water-absorbing brick paving equipment for buildings, which comprises rotating wheels, a first fixing frame, handles, a first fixing block, a first rotating rod, a guide plate, a first spring, a second fixing block, a first guide rod, a first slide block, a second spring, a first extrusion frame, a third fixing block, a second guide rod, a wedge-shaped block, a third spring, an extrusion block, a driving mechanism and a pressing mechanism, wherein the lower part of the first fixing frame is rotatably connected with four rotating wheels, the upper part of the front side of the first fixing frame is provided with two handles, the lower part of the first fixing frame is provided with four first fixing blocks, first rotating rods are arranged between the left end and the right end of the two transverse first fixing blocks, the guide plate is connected between the two first rotating rods in a sliding manner, and the two first springs are sleeved on the two first rotating rods, the two ends of a first spring are respectively connected to a first fixed block and a guide plate, the front side and the rear side of the bottom of the guide plate are respectively provided with a second fixed block, a first guide rod is arranged between the two second fixed blocks, the front side of the first guide rod is movably connected with a first slide block capable of pushing a water absorption brick, the first slide block is in sliding fit with the guide plate, the first guide rod is sleeved with a second spring, the two ends of the second spring are respectively connected to the second fixed block and the first slide block, the rear side of the first fixed frame is connected with a first extrusion frame, the first extrusion frame is in contact fit with the first slide block, the rear side of the upper part of the guide plate is provided with a third fixed block, the third fixed block is provided with a second guide rod, the second guide rod is slidably connected with a wedge block, the wedge block is in contact fit with the first slide block, the second guide rod is sleeved with a third spring, the two ends of the third spring are respectively connected to the second guide rod and the wedge block, the left side at the rear portion of the first rotating rod of rear side is equipped with the extrusion piece, and the extrusion piece cooperates with the wedge contact, and the rear side of first mount is equipped with the actuating mechanism who carries out the brick that absorbs water, and the front side of first mount is equipped with carries out the pressing mechanism who flattens to the brick that absorbs water.

Preferably, actuating mechanism is including the fourth fixed block, including a motor, an end cap, a controller, and a cover plate, the threaded rod, third guide bar and second slider, both ends all are equipped with the fourth fixed block about the first mount rear side, be connected with the threaded rod that transports the brick that absorbs water between the lower part of two first fixed blocks of rear side rotary type, be equipped with the motor on the fourth fixed block on right side, and the output shaft of motor is connected with the threaded rod, be equipped with the third guide bar between two first fixed block rear sides at rear portion, sliding type is connected with the second slider on the third guide bar, be connected through threaded connection's mode between second slider and the threaded rod, and the second slider contacts the cooperation with the deflector.

Preferably, the pressing mechanism includes a second rotating rod, a first spur gear, a fifth fixing block, a second spur gear, a sixth fixing block, a third rotating rod, a third spur gear, a cam, a fixing rod, a third slider, a lower pressing frame and a fourth spring, the rotating gear on the right part of the front side is connected with the second rotating rod, the left side of the second rotating rod is provided with the first spur gear, the lower part of the left handle is provided with the fifth fixing block, the lower part of the fifth fixing block is rotatably connected with the second spur gear, and can be engaged with the first spur gear while the second spur gear rotates, the front side of the left handle is provided with the sixth fixing block, the sixth fixing block is rotatably connected with the third rotating rod, the right side of the third rotating rod is provided with the third spur gear, and can be engaged with the third spur gear while the second spur gear rotates, the left side of the third slider is provided with the cam, the left side of the upper part of the first fixing frame is provided with the fixing rod, the fixing rod is slidably connected with the third slider, and the third slider is in contact fit with the cam, the left side of the water absorption brick, and the upper fixing rod is sleeved with the fourth spring, and the fourth spring.

Preferably, still including the feed mechanism who carries out the material loading to the brick that absorbs water, feed mechanism is including the blowing frame, the seventh fixed block, the fourth dwang, fixture block and torque spring, the middle part of first mount upside is equipped with the blowing frame that is used for placing the brick that absorbs water, both sides all are equipped with the seventh fixed block around the blowing frame, equal rotary type ground is connected with the fourth dwang on two seventh fixed blocks, all be connected with the fixture block on two fourth dwang, and fixture block and blowing frame contact, the cover has torque spring on the fourth dwang, torque spring's both ends are connected respectively on fourth dwang and seventh fixed block.

Preferably, still including reducing the toggle mechanism who carries out the intensity of labour of unloading to the brick that absorbs water, toggle mechanism is including the eighth fixed block, first carriage, the slide bar, the fifth spring, sector gear, second carriage and seventh spring, the middle part on blowing frame right side is equipped with the eighth fixed block, it is connected with first carriage to slide on the eighth fixed block, the upper portion of first carriage front side is equipped with the slide bar, and slide bar and eighth fixed block sliding fit, the cover has the fifth spring on the slide bar, the both ends of fifth spring are connected respectively on first carriage and eighth fixed block, the right side of two fourth dwang all is equipped with sector gear, the left side on first carriage upper portion is connected with to the second carriage that carries out spacing to the brick that absorbs water with sliding fit, and second carriage and blowing frame contact fit, be equipped with two seventh springs on the second carriage, the both ends of seventh spring are connected respectively on second carriage and first carriage.

Preferably, still including the clamping mechanism who presss from both sides tightly to the brick that absorbs water, clamping mechanism is including the sliding block, press from both sides tight piece, the fourth sliding block, the sixth spring, eighth spring and second extrusion frame, the middle part of both sides all is connected with the sliding block with slidingtype around the blowing frame, all be equipped with the tight piece of clamp that can clip the brick that absorbs water on two sliding blocks, and press from both sides tight piece and blowing frame sliding fit, can contact with the brick that absorbs water when pressing from both sides tight piece gliding, all slidingtype is equipped with the fourth sliding block on two sliding blocks, the inboard of two sliding blocks all overlaps and has the sixth spring, the both ends of sixth spring are connected respectively on fourth sliding block and blowing frame, the outside of two sliding blocks all overlaps and has the eighth spring, the both ends of eighth spring are on fourth sliding block and the sliding block respectively, both sides all are equipped with the second extrusion frame around first carriage upper portion, and the second extrusion frame all cooperates with the fourth sliding block contact of homonymy.

Preferably, still including carrying out the operation that the unloading was carried out to the brick that absorbs water and providing the drive mechanism of power, drive mechanism is including the ninth fixed block, first belt pulley, first flat belt, the fifth dwang, the second belt pulley, the second mount, the sixth dwang, shifting block and the flat belt of second, the front side of two fourth fixed block lower parts all is equipped with the ninth fixed block, the front side of two ninth fixed blocks is taken turns with two of rear side and is connected with the fifth dwang with the homorotation type, all be equipped with first belt pulley between two fifth dwang, it has first flat belt all to wind between two first belt pulleys of vertical homonymy, the right side on first mount upper portion is equipped with the second mount, the upper portion rotary type of second mount is connected with the sixth dwang, the middle part of sixth dwang is equipped with the shifting block, and the shifting block rotates and cooperates with first carriage contact, the left side of sixth dwang and fifth dwang all is equipped with the second belt pulley, it is flat to wind between two second belt pulleys.

Preferably, the front side and the rear side of the material placing frame are both provided with sliding grooves matched with the clamping blocks.

(3) Advantageous effects

The invention achieves the following effects: 1. after the guide plate slides to a certain position, the first sliding block drives the water absorption brick on the guide plate to move, and the water absorption brick falls on the ground, so that the water absorption brick can be paved on the ground.

2. Through the fourth dwang of manual upset, the fixture block breaks away from with the blowing frame thereupon, and the brick that absorbs water in the blowing frame drops at the deflector thereupon, so alright carry out the unloading to the brick that absorbs water, has reduced the manual work to ground and has spread the intensity of labour who pastes the brick that absorbs water to a certain extent.

3. Through carrying out the in-process of unloading to the brick that absorbs water, the first carriage that can slide downwards contacts with sector gear thereupon to can be convenient for carry out the unloading to the brick that absorbs water, the second carriage slides downwards thereupon, so more convenient unloading of carrying on, thereby reduced people and carried out the intensity of labour that the unloading was carried out to the brick that absorbs water.

4. Through the second extrusion frame downstream thereupon, under the joint mating reaction of second extrusion frame and fourth slider, press from both sides tight piece and slide thereupon, under the sliding fit effect of sliding block and blowing frame, press from both sides tight to the brick that absorbs water, so alright more convenient press from both sides tight to the brick that absorbs water to carry out the operation of unloading from giving people and providing convenience.

5. Through first belt pulley rotation thereupon, under the wire-wrap effect of first belt pulley and first flat belt, first flat belt rotates thereupon, under the joint mating reaction of shifting block and first carriage, the shifting block drives first carriage lapse thereupon, so alright more convenient push down first carriage to the work efficiency that people laid the brick that absorbs water.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic diagram of a first partial body structure according to the present invention.

Fig. 4 is an enlarged view of the present invention at a.

Fig. 5 is a schematic diagram of a second partial body structure according to the present invention.

Fig. 6 is a schematic perspective view of the driving mechanism of the present invention.

Fig. 7 is a partial perspective view of the driving mechanism of the present invention.

Fig. 8 is a schematic perspective view of the pressing mechanism of the present invention.

Fig. 9 is a schematic perspective view of a first feeding mechanism of the present invention.

Fig. 10 is a schematic perspective view of a second feeding mechanism according to the present invention.

Fig. 11 is a schematic perspective view of a toggle mechanism of the present invention.

Fig. 12 is a schematic perspective view of a first clamping mechanism according to the present invention.

FIG. 13 is an enlarged view of the invention at B.

Fig. 14 is a schematic perspective view of a second clamping mechanism of the present invention.

Fig. 15 is a schematic perspective view of the transmission mechanism of the present invention.

Fig. 16 is an enlarged view of the present invention at C.

The symbols in the drawings are: 1-a rotating wheel, 2-a first fixing frame, 3-a handle, 4-a first fixing block, 5-a first rotating rod, 6-a guide plate, 7-a first spring, 8-a second fixing block, 9-a first guide rod, 10-a first sliding block, 11-a second spring, 12-a first extrusion frame, 13-a third fixing block, 14-a second guide rod, 15-a wedge-shaped block, 16-a third spring, 161-an extrusion block, 17-a driving mechanism, 171-a fourth fixing block, 172-a motor, 173-a threaded rod, 174-a third guide rod, 175-a second sliding block, 18-a pressing mechanism, 181-a second rotating rod, 182-a first straight gear, 183-a fifth fixing block, 184-a second straight gear, 185-a sixth fixing block, 186-a third rotating rod, 1861-a third spur gear, 187-a cam, 188-a fixed rod, 189-a third sliding block, 1810-a lower pressing frame, 1811-a fourth spring, 19-a feeding mechanism, 191-a discharging frame, 192-a seventh fixed block, 193-a fourth rotating rod, 194-a clamping block, 195-a torsion spring, 20-a toggle mechanism, 201-an eighth fixed block, 202-a first sliding frame, 203-a sliding rod, 204-a fifth spring, 205-a sector gear, 206-a second sliding frame, 207-a seventh spring, 21-a clamping mechanism, 211-a sliding block, 212-a clamping block, 213-a fourth sliding block, 214-a sixth spring, 215-an eighth spring, 216-a second pressing frame, 22-transmission mechanism 221-ninth fixed block 222-first belt pulley 223-first flat belt 224-fifth rotating rod 225-second belt pulley 226-second fixed frame 227-sixth rotating rod 228-shifting block 229-second flat belt.

Detailed Description

While the present invention can be described with respect to a particular application or industry, those skilled in the art will recognize the broader applicability of the invention. Those of ordinary skill in the art will recognize other factors such as: terms such as above, below, upward, downward, etc. are used to describe the figures and are not meant to limit the scope of the invention as defined by the appended claims. Such as: any numerical designation of first or second, and the like, is merely exemplary and is not intended to limit the scope of the invention in any way.

Example 1

A water-absorbing brick paving device for buildings is shown in figures 1, 2, 3, 4, 5, 6, 7, 8, 9 and 15 and comprises rotating wheels 1, a first fixing frame 2, a handle 3, a first fixing block 4, a first rotating rod 5, a guide plate 6, a first spring 7, a second fixing block 8, a first guide rod 9, a first slider 10, a second spring 11, a first extrusion frame 12, a third fixing block 13, a second guide rod 14, a wedge-shaped block 15, a third spring 16, an extrusion block 161, a driving mechanism 17 and a pressing mechanism 18, wherein the lower part of the first fixing frame 2 is rotatably connected with four rotating wheels 1, the upper part of the front side of the first fixing frame 2 is welded and connected with two handles 3, the lower part of the first fixing frame 2 is fixedly connected with four first fixing blocks 4 through bolts, the left and right ends of two transverse first fixing blocks 4 are fixedly connected with the first rotating rod 5 through bolts, the guide plate 6 is connected between the first rotating rods 5, two first rotating rods 5 are connected with the first fixing frame 7 through bolts, the first sliding blocks 7 are respectively connected with the first fixing frame 7 through bolts, the guide rod 6, the two sliding blocks 6 are connected with the second sliding blocks 9, the second sliding blocks 6, the guide rod 6 are connected with the second sliding blocks 9, the first fixing frame 9, the second sliding blocks 6 through bolts, the guide rod 6 are connected with the second sliding blocks 10, the third fixed block 13 is riveted with a second guide rod 14, the second guide rod 14 is connected with a wedge block 15 in a sliding manner, the wedge block 15 is in contact fit with the first slider 10, a third spring 16 is sleeved on the second guide rod 14, two ends of the third spring 16 are respectively connected onto the second guide rod 14 and the wedge block 15, the left side of the rear part of the rear first rotating rod 5 is fixedly connected with an extrusion block 161 through a bolt, the extrusion block 161 is in contact fit with the wedge block 15, the rear side of the first fixed frame 2 is fixedly connected with a driving mechanism 17 through a screw, and the front side of the first fixed frame 2 is fixedly connected with a pressing mechanism 18 through a screw.

As shown in fig. 1, 2, 6 and 7, the driving mechanism 17 includes a fourth fixed block 171, a motor 172, a threaded rod 173, a third guide rod 174 and a second slider 175, the fourth fixed block 171 is fixedly connected to both left and right ends of the rear side of the first fixed frame 2 through bolts, the threaded rod 173 is rotatably connected between the lower portions of the two rear first fixed blocks 4, the motor 172 is connected to the fourth fixed block 171 on the right side in a riveting manner, an output shaft of the motor 172 is connected to the threaded rod 173, the third guide rod 174 is connected to the rear side of the two rear first fixed blocks 4 in a riveting manner, the third guide rod 174 is located at the rear side of the threaded rod 173, the second slider 175 is slidably connected to the third guide rod 174, the second slider 175 is connected to the threaded rod 173 in a threaded manner, and the second slider 175 is in contact fit with the guide plate 6.

As shown in fig. 1 and 8, the pressing mechanism 18 includes a second rotating rod 181, a first straight gear 182, a fifth fixed block 183, a second straight gear 184, a sixth fixed block 185, a third rotating rod 186, a third straight gear 1861, a cam 187, a fixed rod 188, a third slider 189, a downward pressing frame 1810 and a fourth spring 1811, the second rotating rod 181 is connected to the rotating wheel 1 at the right front portion, the left side of the second rotating rod 181 is connected to the first straight gear 182 by a key, the fifth fixed block 183 is fixedly connected to the lower portion of the left handle 3 by a bolt, the second straight gear 184 is rotatably connected to the lower portion of the fifth fixed block 184 and can be engaged with the first straight gear 182 while the second straight gear 184 rotates, the sixth fixed block 185 is fixedly connected to the front side of the left handle 3 by a bolt, the third fixed block 186 is rotatably connected to the sixth fixed block 185, the right side of the third rotating rod 186 is connected to the right side of the third straight gear 186 by a key, the third straight gear 1861 can be engaged with the third straight gear 184 while the second straight gear rotates, the third straight gear 186 is connected to the left side of the left slider 187, the left slider 189 is connected to the fixed rod 188 by a bolt 1812, the third straight gear 189 is connected to the fixed rod 189 by a bolt 1812, the fourth fixed rod 189 and is connected to the fourth fixed rod 189 by a bolt 1811 and a bolt 189 is connected to the fourth spring 189 and a bolt 189 is connected to the fourth fixed rod 189 and a bolt 189 is connected to the fourth straight gear 189.

When people need to lay water-absorbing bricks on the ground, people can place the water-absorbing bricks on the guide plate 6, the equipment can be moved by pushing the handle 3, the rotating wheel 1 can be driven to rotate while the handle 3 is moved, initially, the guide plate 6 is positioned on the right side of the first rotating rod 5, the first slide block 10 is positioned on the rear side of the wedge block 15 and is blocked by the wedge block 15, the second spring 11 is in a stretching state, people start the motor 172, the output shaft of the motor 172 drives the threaded rod 173 to rotate along with the output shaft, under the effect of threaded connection of the second slide block 175 and the threaded rod, the second slide block 175 drives the guide plate 6 to slide towards the left side along with the output shaft, the guide plate 6 and the first rotating rod 5 can drive the first spring 7 to stretch while in sliding, the extrusion block 161 can be contacted with the wedge block 15 while the guide plate 6 slides, under the contact and matching effect of the wedge block 15 and the extrusion block 161, the extrusion block 161 can drive the wedge block 15 to slide towards the right side, the wedge block 15 can drive the third spring 16 to stretch while sliding towards the right side, under the sliding fit action of the wedge block 15 and the second guide rod 14, the wedge block 15 can be separated from the first slide block 10 while sliding, at the moment of separation, the third spring 16 resets to drive the wedge block 15 to slide leftwards and reset, under the reset action of the second spring 11, the first slide block 10 can slide forwards under the guide action of the guide plate 6 to push the water absorption brick forwards on the ground, so that the water absorption brick can be paved on the ground, after paving of the water absorption brick is completed, the control motor 172 rotates backwards along with the wedge block, the threaded rod 173 rotates backwards to drive the second slide block 175 to move rightwards, the second slide block 175 does not apply force to the guide plate 6 any more, under the reset action of the first spring 7, the guide plate 6 slides rightwards and resets, the guide plate 6 drives the second fixed block 8, the first guide rod 9, the first slide block 10, the third fixed block 13, the second guide rod 14, the wedge block 15 and the third spring 16 to move right together, in the process of moving the first slide block 10 to the right, under the guide action of the first extrusion frame 12, the first slide block 10 simultaneously slides backwards along the first guide rod 9, the second spring 11 is stretched, when the first slide block 10 slides backwards to be in contact with the wedge block 15, the first slide block 10 again extrudes the wedge block 15 to slide rightwards, the third spring 16 is stretched, when the first slide block 10 slides backwards to the rear side of the wedge block 15, the third spring 16 is reset to drive the wedge block 15 to slide leftwards and reset the first slide block 10 again, so that the tile is conveniently placed on the guide plate 6 next time, the rotating rod of the rotating wheel 1 can drive the second 181 to rotate, and the second 181 drives the first straight gear 182 to rotate along with the first straight gear, the first spur gear 182 drives the second spur gear 184 to rotate, the second spur gear 184 can be meshed with the third spur gear 1861 while rotating, the second spur gear 184 can drive the third spur gear 1861 to rotate while rotating, the third spur gear 1861 drives the third rotating rod 186 to rotate while rotating, the third rotating rod 186 can drive the cam 187 to rotate while rotating, the cam 187 can be in contact with the third slider 189 while rotating, the third slider 189 slides downward along with the third slider, the fourth spring 1811 is stretched along with the third slider 189, the third slider 189 drives the pressing frame 1810 to slide downward, the pressing frame 1810 can be in contact with the water absorption bricks while sliding downward under the sliding cooperation effect of the third slider 189 and the fixing rod 188, so that the water absorption bricks laid on the ground can be flattened, after the cam 187 rotates to one circle, the cam 187 can be separated from the third slider 189 while rotating, under the elastic force action of the fourth spring 1811, the third sliding block 189 drives the lower pressing frame 1810 to reset, so that the water absorption bricks can be flatly paved on the ground, and the efficiency of paving the water absorption bricks on the ground by people is improved.

Example 2

On the basis of embodiment 3, as shown in fig. 1, fig. 2, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15 and fig. 16, the present invention further includes a feeding mechanism 19, the feeding mechanism 19 includes a material placing frame 191, a seventh fixing block 192, a fourth rotating rod 193, a fixture block 194 and a torsion spring 195, the material placing frame 191 is fixedly connected to the middle portion of the upper side of the first fixing frame 2 through a screw, the seventh fixing blocks 192 are fixedly connected to the front and rear sides of the material placing frame 191 through bolts, the fourth rotating rod 193 is rotatably connected to the two seventh fixing blocks 192, the fixture block 194 is connected to the two fourth rotating rods 193, the fixture block 194 is in contact fit with the material placing frame 191, the torsion spring 195 is sleeved on the fourth rotating rod 193, and both ends of the torsion spring 195 are respectively connected to the fourth rotating rod 193 and the seventh fixing block 192.

In the process of paving and pasting the water absorption bricks, people can place the water absorption bricks in the material placing frame 191, manually turn over the fourth rotating rod 193, the fourth rotating rod 193 can drive the clamping block 194 to turn over when rotating, the torsion spring 195 contracts along with the fourth rotating rod, the clamping block 194 can be separated from the material placing frame 191 when turning over, the water absorption bricks in the material placing frame 191 can fall on the guide plate 6 simultaneously, manually loosen the fourth rotating rod 193, the fourth rotating rod 193 drives the clamping block 194 to reset along with the fourth rotating rod 195 under the elastic action of the torsion spring, the clamping block 194 can be contacted with the material placing frame 191 when the clamping block 194, the water absorption bricks in the material placing frame 191 can be placed, the water absorption bricks can be blanked, and the labor intensity of paving and pasting the water absorption bricks on the ground manually is reduced to a certain degree.

Example 3

Based on the embodiment 2, as shown in fig. 1, 2, 11, 12, 14, 15 and 16, the present disclosure further includes a toggle mechanism 20, the toggle mechanism 20 includes an eighth fixed block 201, a first sliding frame 202, a sliding rod 203, a fifth spring 204, a sector gear 205, a second sliding frame 206 and a seventh spring 207, the eighth fixed block 201 is fixedly connected to the middle portion of the right side of the discharge frame 191 through a bolt, the first sliding frame 202 is slidably connected to the eighth fixed block 201, the sliding rod 203 is connected to the upper portion of the front side of the first sliding frame 202 through a rivet joint, the sliding rod 203 is slidably matched with the eighth fixed block 201, the fifth spring 204 is sleeved on the sliding rod 203, two ends of the fifth spring 204 are respectively connected to the first sliding frame 202 and the eighth fixed block 201, the sector gear 205 is connected to the right sides of the two fourth rotating rods 193 through a key joint, the first sliding frame 202 moves down and can contact with the sector gear 205 and drive the sector gear 205 to rotate, the second sliding frame 206 is slidably connected to the left side of the upper portion of the first sliding frame 202, the second sliding frame 206 is connected to the seventh sliding frame 191, two ends of the second sliding frame 206 are respectively connected to the second sliding frame 206.

During the blanking process of the water absorption brick, the first sliding frame 202 is manually slid downwards to drive the sliding rod 203 to slide downwards, the fifth spring 204 is stretched, the first sliding frame 202 can be meshed with the sector gear 205 while sliding downwards, the first sliding frame 202 can drive the sector gear 205 to rotate while being meshed with the sector gear 205, the first sliding frame 202 can drive the second sliding frame 206 to move downwards while sliding downwards, the second sliding frame 206 can be contacted with the water absorption brick while sliding downwards, the seventh spring 207 is stretched under the sliding fit action of the second sliding frame 206 and the first sliding frame 202, the water absorption brick can be clamped while the second sliding frame 206 is contacted with the water absorption brick, so that the water absorption brick is better blanked, after the blanking is completed, the first sliding frame 202 is loosened, the first sliding frame 202 can drive the sector gear 205 to rotate reversely under the elastic force of the fifth spring 204, the first sliding frame 202 drives the second sliding frame 206 and the seventh spring 207 to slide upwards to blank, the second sliding frame 206 is separated from the water absorption brick, the seventh sliding frame 206 and the water absorption brick is reset under the elastic force of the spring 207, so that the blanking is more convenient and the blanking is carried out along with the blanking process, and the blanking process is more convenient.

Example 4

On the basis of embodiment 4, as shown in fig. 1, 2, 13, and 14, the device further includes a clamping mechanism 21, the clamping mechanism 21 includes sliding blocks 211, clamping blocks 212, fourth sliding blocks 213, sixth springs 214, eighth springs 215, and second pressing frames 216, the sliding blocks 211 are slidably connected to the middle portions of the front and rear sides of the material placing frame 191, the clamping blocks 212 are fixedly connected to the two sliding blocks 211 through bolts, the clamping blocks 212 are slidably engaged with the material placing frame 191 while the clamping blocks 212 slide, the fourth sliding blocks 213 are slidably disposed on the two sliding blocks 211, the sixth springs 214 are respectively sleeved on the inner sides of the two sliding blocks 211, two ends of the sixth springs 214 are respectively connected to the fourth sliding blocks 213 and the material placing frame 191, the eighth springs 215 are respectively sleeved on the outer sides of the two sliding blocks 211, two ends of the eighth springs 215 are respectively connected to the fourth sliding blocks 213 and the sliding blocks 211, the second pressing frames 216 are fixedly connected to the front and rear sides of the upper portion of the first sliding frame 202 through bolts, and the second pressing frames 216 are respectively engaged with the fourth sliding blocks 213.

In the process that the first sliding frame 202 slides downwards, the first sliding frame 202 can drive the second extrusion frame 216 to slide downwards, the second extrusion frame 216 can contact with the fourth sliding block 213 while sliding downwards, the fourth sliding block 213 can slide along with the first sliding frame, the sixth spring 214 and the eighth spring 215 are deformed, the fourth sliding block 213 drives the sliding block 211 to slide, the clamping block 212 slides along with the fourth sliding block, under the sliding fit action of the sliding block 211 and the emptying frame 191, the clamping block 212 can contact with the water absorption brick, so that the water absorption brick can be clamped, the first sliding frame 202 can drive the second extrusion frame 216 to slide upwards while resetting, the second extrusion frame 216 can be separated from the fourth sliding block 213 while sliding upwards, under the elastic force of the sixth spring 214, the fourth sliding block 213 drives the sliding block 211 and the clamping block 212 to reset along with the fourth sliding block 213, the eighth spring 215 can be loosened, so that the water absorption brick can be clamped conveniently, and the water absorption brick can be prevented from falling on the guide plate 6 in the process of the water absorption brick, and the water absorption brick laying operation is facilitated.

Example 5

On the basis of embodiment 4, as shown in fig. 2, 15, and 16, the present invention further includes a transmission mechanism 22, the transmission mechanism 22 includes a ninth fixed block 221, a first pulley 222, a first flat belt 223, a fifth rotating rod 224, a second pulley 225, a second fixed frame 226, a sixth rotating rod 227, a shifting block 228, and a second flat belt 229, the ninth fixed block 221 is fixedly connected to the front sides of the lower portions of the two fourth fixed blocks 171 through bolts, the fifth rotating rod 224 is rotatably connected to the two rotating wheels 1 on the front side and the rear side of the two ninth fixed blocks 221, the first pulley 222 is connected to the two fifth rotating rods 224 through a key, the first flat belt 223 is rotatably connected between the two first pulleys 222 on the same longitudinal side, the second fixed frame 226 is fixedly connected to the right side of the upper portion of the first fixed frame 2 through a screw, the upper portion of the second fixed frame 226 is rotatably connected to the sixth rotating rod 227, the shifting block 228 is connected to the middle portion of the sixth fixed frame 227 through a bolt, the shifting block 228 is rotatably connected to the first sliding frame 202, the left side of the sixth fixed frame 227 is rotatably connected to the second pulley 225 through a key 225, and the second flat belt 229.

The first pulley 222 can be driven to rotate while the rotating wheel 1 rotates, the first pulley 222 can drive the first flat belt 223 to rotate along with the first pulley 222 under the action of the first pulley 222 and the first flat belt 223, the first flat belt 223 can drive the first pulley 222 on the fifth rotating rod 224 to rotate along with the first pulley, the fifth rotating rod 224 can drive the second pulley 225 to rotate along with the fifth rotating rod 224 under the action of the first flat belt 223, the second pulley 229 can rotate along with the second pulley 225 under the action of the second pulley 225 and the second flat belt 229 under the action of the second pulley 229, the second pulley 225 on the sixth rotating rod 227 can rotate along with the second pulley 225, the sixth rotating rod 227 can be driven to rotate while the second pulley 225 rotates, the dial block 228 can be driven to rotate while the dial block 228 rotates, the dial block 228 can contact with the first carriage 202 while the dial block 228 rotates, the dial block 228 can slide along with the first carriage 202 under the action of the first carriage 202, and the dial block 228 can slide along with the first carriage 228, thereby facilitating the work of the first carriage 202, and the people can conveniently reset the first carriage 202 after the first carriage 202 slides along with the first carriage 228.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.

Claims

1. A water-absorbing brick paving device for buildings comprises rotating wheels (1), a first fixing frame (2), handles (3), first fixing blocks (4), first rotating rods (5), guide plates (6), first springs (7), second fixing blocks (8), first guide rods (9), first sliders (10), second springs (11), a first extrusion frame (12), third fixing blocks (13), second guide rods (14), wedge blocks (15), third springs (16) and extrusion blocks (161), wherein the lower part of the first fixing frame (2) is rotatably connected with the four rotating wheels (1), the upper part of the front side of the first fixing frame (2) is provided with the two handles (3), the lower part of the first fixing frame (2) is provided with the four first fixing blocks (4), the first rotating rods (5) are arranged between the left end and the right end of the two first fixing blocks (4) in a transverse mode, the guide plates (6) are connected between the two first rotating rods (5) in a sliding mode, the first springs (7) are sleeved on the two first rotating rods (5), the two ends of the first springs (7) are respectively connected with the front and back ends of the first fixing blocks (6), the two guide plates (8) are respectively arranged between the front and back ends of the two guide plates (6), the second fixing blocks (8), a first sliding block (10) capable of pushing a water absorption brick is connected to the front side of a first guide rod (9) in a sliding mode, the first sliding block (10) is in sliding fit with a guide plate (6), a second spring (11) is sleeved on the first guide rod (9), two ends of the second spring (11) are respectively connected to a second fixed block (8) and the first sliding block (10), the rear side of a first fixing frame (2) is connected with a first extrusion frame (12), the first extrusion frame (12) is in contact fit with the first sliding block (10), a third fixed block (13) is arranged on the rear side of the upper portion of the guide plate (6), a second guide rod (14) is arranged on the third fixed block (13), a wedge block (15) is connected to the second guide rod (14) in a sliding mode, the wedge block (15) is in contact fit with the first sliding block (10), a third spring (16) is sleeved on the second guide rod (14), two ends of the third spring (16) are respectively connected to the second guide rod (14) and the wedge block (15), the rear side of the wedge block (15), a first sliding block (161) is in contact fit with a first sliding block (17), a water absorption brick conveying mechanism is arranged on the rear side, and a water absorption brick conveying mechanism (161) is arranged on the rear side of the rear side, and a water absorption brick conveying mechanism (17), a pressing mechanism (18) for flattening the water absorption bricks is arranged on the front side of the first fixing frame (2).

2. The water absorption brick paving device for the building as claimed in claim 1, wherein the driving mechanism (17) comprises a fourth fixing block (171), a motor (172), a threaded rod (173), a third guide rod (174) and a second sliding block (175), the fourth fixing block (171) is arranged at each of the left end and the right end of the rear side of the first fixing frame (2), the threaded rod (173) for transporting the water absorption brick is rotatably connected between the lower parts of the two first fixing blocks (4) at the rear side, the motor (172) is arranged on the fourth fixing block (171) at the right side, the output shaft of the motor (172) is connected with the threaded rod (173), the third guide rod (174) is arranged between the rear sides of the two first fixing blocks (4) at the rear part, the second sliding block (175) is slidably connected with the threaded rod (173), and the second sliding block (175) is in threaded connection with the guide plate (6) in contact fit.

3. The apparatus for paving water-absorbing bricks for buildings according to claim 2, wherein the pressing mechanism (18) comprises a second rotating rod (181), a first spur gear (182), a fifth fixed block (183), a second spur gear (184), a sixth fixed block (185), a third rotating rod (186), a third spur gear (1861), a cam (187), a fixed rod (188), a third slider (189), a lower pressing frame (1810) and a fourth spring (1811), the second rotating rod (181) is connected to the rotating rod (1) at the right front side, the first spur gear (182) is disposed at the left side of the second rotating rod (181), the fifth fixed block (183) is disposed at the lower part of the left handle (3), the second spur gear (184) is rotatably connected to the lower part of the fifth fixed block (183), the rotating rod (184) can be engaged with the first spur gear (182) while the rotating rod (184) is rotated, the sixth fixed block (185) is disposed at the front side of the left handle (3), the sixth fixed block (185) is rotatably connected to the third spur gear (186), the third spur gear (186) is disposed at the upper part of the left handle (186), the third spur gear (186) can be engaged with the fixed rod (186), the third spur gear (186) while the third straight gear (186) is disposed at the left side of the fixed rod (186), the fixing rod (188) is connected with a third sliding block (189) in a sliding mode, the third sliding block (189) is matched with the cam (187) in a contact mode, a lower pressing frame (1810) for pressing the water absorption bricks is arranged on the left side of the third sliding block (189), a fourth spring (1811) is sleeved on the fixing rod (188), and two ends of the fourth spring (1811) are connected to the fixing rod (188) and the third sliding block (189) respectively.

4. The water absorption brick paving equipment for the building as claimed in claim 3, further comprising a feeding mechanism (19) for feeding the water absorption bricks, wherein the feeding mechanism (19) comprises a material placing frame (191), seventh fixing blocks (192), fourth rotating rods (193), a clamping block (194) and a torsion spring (195), the material placing frame (191) for placing the water absorption bricks is arranged in the middle of the upper side of the first fixing frame (2), the seventh fixing blocks (192) are arranged on the front side and the rear side of the material placing frame (191), the fourth rotating rods (193) are connected to the two seventh fixing blocks (192) in a rotating mode, the clamping block (194) is connected to the two fourth rotating rods (193), the clamping block (194) is in contact with the material placing frame (191), the torsion spring (195) is sleeved on the fourth rotating rod (193), and two rotating ends of the torsion spring (195) are connected to the fourth rotating blocks (193) and the seventh rotating blocks (192) respectively.

5. The water absorption brick paving device for the building as claimed in claim 4, further comprising a toggle mechanism (20) for reducing labor intensity of blanking the water absorption brick, wherein the toggle mechanism (20) comprises an eighth fixed block (201), a first sliding frame (202), a sliding rod (203), a fifth spring (204), a sector gear (205), a second sliding frame (206) and a seventh spring (207), the eighth fixed block (201) is arranged in the middle of the right side of the discharging frame (191), the first sliding frame (202) is slidably connected to the eighth fixed block (201), the sliding rod (203) is arranged at the upper part of the front side of the first sliding frame (202), the sliding rod (203) is in sliding fit with the eighth fixed block (201), a fifth spring (204) is sleeved on the sliding rod (203), two ends of the fifth spring (204) are respectively connected to the first sliding frame (202) and the eighth fixed block (201), sector gears (205) are respectively arranged on the right sides of the two fourth rotating rods (193), a second sliding frame (206) for limiting the water absorption brick is slidably connected to the left side of the upper part of the first sliding frame (202), and the second sliding frame (206) is in contact fit with the discharge frame (191), two seventh springs (207) are arranged on the second sliding frame (206), and two ends of each seventh spring (207) are respectively connected to the second sliding frame (206) and the first sliding frame (202).

6. The water-absorbing brick paving equipment for the building as claimed in claim 5, characterized by further comprising a clamping mechanism (21) for clamping the water-absorbing brick, wherein the clamping mechanism (21) comprises a sliding block (211), a clamping block (212), a fourth sliding block (213), a sixth spring (214), an eighth spring (215) and a second extrusion frame (216), the sliding block (211) is connected to the middle of the front side and the rear side of the discharging frame (191) in a sliding manner, the clamping block (212) capable of clamping the water-absorbing brick is arranged on each of the two sliding blocks (211), the clamping block (212) is in sliding fit with the discharging frame (191), the clamping block (212) can be in contact with the water-absorbing brick while sliding, the fourth sliding block (213) is arranged on each of the two sliding blocks (211), the sixth spring (214) is sleeved on the inner side of each of the two sliding blocks (211), two ends of the sixth spring (214) are respectively connected to the fourth sliding block (213) and the discharging frame (191), the eighth spring (215) is sleeved on the outer side of each of the two sliding blocks (211), the second sliding blocks (216) are respectively in contact with the front side of the fourth sliding block (213), and the second extrusion frame (216), and the front side and the rear side of each sliding block (216), and the second sliding block (213) are arranged on each sliding frame (216).

7. The paving and pasting equipment for the water absorption bricks for the buildings according to claim 6, characterized in that the paving and pasting equipment further comprises a transmission mechanism (22) for providing power for the operation of blanking the water absorption bricks, the transmission mechanism (22) comprises a ninth fixed block (221), a first belt pulley (222), a first flat belt (223), a fifth rotating rod (224), a second belt pulley (225), a second fixed frame (226), a sixth rotating rod (227), a shifting block (228) and a second flat belt (229), the ninth fixed block (221) is arranged on the front side of the lower portion of the two fourth fixed blocks (171), the fifth rotating rod (224) is rotationally connected on the two rotating wheels (1) on the front side and the rear side of the two ninth fixed blocks (221), the first belt pulley (222) is arranged between the two fifth rotating rods (224), the first flat belt (223) is wound between the two first belt pulleys (222) on the same longitudinal side, the second fixed frame (2) is provided with a second fixed frame (226) on the right side, the upper portion of the second fixed frame (226) is connected with the sixth belt pulley (228), the sixth sliding frame (227) is in contact with the fifth sliding frame (224), and the fifth sliding frame (227) is provided with the second sliding frame (228), a second flat belt (229) is wound between the two second pulleys (225).

8. The water-absorbing brick paving device for buildings as claimed in claim 7, wherein the front and rear sides of the material-placing frame (191) are provided with sliding grooves matched with the clamping blocks (194).